Abstract
We have developed a computational method that predicts the positions of active compounds, making it possible to increase activity as a fragment evolution strategy. We refer to the positions of these compounds as the active position. When an active fragment compound is found, the following lead generation process is performed, primarily to increase activity. In the current method, to predict the location of the active position, hydrogen atoms are replaced by small side chains, generating virtual compounds. These virtual compounds are docked to a target protein, and the docking scores (affinities) are examined. The hydrogen atom that gives the virtual compound with good affinity should correspond to the active position and it should be replaced to generate a lead compound. This method was found to work well, with the prediction of the active position being 2 times more efficient than random synthesis. In the current study, 15 examples of lead generation were examined. The probability of finding active positions among all hydrogen atoms was 26%, and the current method accurately predicted 60% of the active positions.
Highlights
In the drug-development process, after getting a set of seed compounds, the step is lead generation
Each example consisted of a seed compound, lead compounds derived from the seed compound, and 3D coordinates of the target protein
We have developed a computational method that predicts the positions of seed compounds that should be chemically modified in the fragment evolution method
Summary
In the drug-development process, after getting a set of seed compounds, the step is lead generation. The major purpose of the lead generation is enhancement of the affinity of the seed compound to the target protein. In the lead generation process, the useless portion of the seed compound is reduced, while the necessary part is attached to the seed compound. The scaffold is replaced by another scaffold. The QSAR method is applied to the seed and its derivatives to increase the affinity. The protein-compound complex structure is analyzed in the lead generation
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